Game-Based Learning in Science Education: A Review of Relevant Research

The purpose of this study is to review empirical research articles regarding game-based science learning (GBSL) published from 2000 to 2011. Thirty-one articles were identified through the Web of Science and SCOPUS databases. A qualitative content analysis technique was adopted to analyze the research purposes and designs, game design and implementation, theoretical backgrounds and learning foci of these reviewed studies. The theories and models employed by these studies were classified into four theoretical foundations including cognitivism, constructivism, the socio-cultural perspective, and enactivism. The results indicate that cognitivism and constructivism were the major theoretical foundations employed by the GBSL researchers and that the socio-cultural perspective and enactivism are two emerging theoretical paradigms that have started to draw attention from GBSL researchers in recent years. The analysis of the learning foci showed that most of the digital games were utilized to promote scientific knowledge/concept learning, while less than one-third were implemented to facilitate the students’ problem-solving skills. Only a few studies explored the GBSL outcomes from the aspects of scientific processes, affect, engagement, and socio-contextual learning. Suggestions are made to extend the current GBSL research to address the affective and socio-contextual aspects of science learning. The roles of digital games as tutor, tool, and tutee for science education are discussed, while the potentials of digital games to bridge science learning between real and virtual worlds, to promote collaborative problem-solving, to provide affective learning environments, and to facilitate science learning for younger students are also addressed.     

Examining whether touch sensory feedback is necessary for science learning through experimentation: A literature review of two different lines of research across K-16

The focus of this paper is on the contribution that active touch sensory feedback offered through physical or virtual (with haptic feedback) manipulatives, makes to students' learning through science experimentation. Both theoretical perspectives and empirical evidence are presented. The theoretical perspectives were drawn from two types of theories, namely embodied cognition and additional (touch) sensory channel, which were associated with the use of physical and virtual manipulatives for learning purposes. The empirical evidence was drawn from two different lines of research. The first line of research involves studies that have focused on comparing physical manipulatives and virtual manipulatives (without the provision of haptic feedback), whereas the second involves studies that have focused on comparing virtual manipulatives with and without the provision of touch sensory (haptic) feedback. Both theories supply strong arguments for providing touch sensory feedback during science experimentation, whereas the empirical research outcomes show that providing touch sensory feedback is not always a prerequisite for learning science through experimentation. Those instances for which touch sensory feedback does appear to be a necessity for learning science through experimentation are identified. However, science education studies are limited within the aforementioned research areas. In addition, their findings are inconsistent, especially for the research focused on comparing virtual manipulatives with and without haptic feedback. The latter makes it difficult to arrive at a solid framework that depicts when and how touch sensory feedback should be offered to students for learning science through experimentation. The article concludes with suggestions for future research that would contribute towards development of such a framework.     

Redesigning the scaffolding metaphor to suit pupils with Acquired Brain Injury

This paper extends and develops the metaphor of scaffolding to take account of the specific needs of pupils with an Acquired Brain Injury (ABI), drawing on observational evidence gathered for an empirical enquiry into the learning of pupils with ABI in mainstream classroom conditions. This is an area in which there are few published studies to date. After considering the needs of this particular group of pupils, the development of the scaffolding metaphor is outlined. The use of scaffolding for a group of pupils with ABI is illustrated and the need for modifications discussed, before suggesting the acronym PEDER (Point out, Explain, Demonstrate, Encourage, Repeat) to focus on the particular needs of this group. However, in practice, this acronym has been found to assist a wider group than just pupils with an ABI.     

Undergraduate students’ earth science learning: relationships among conceptions,approaches, and learning self-efficacy in Taiwan

In the area of science education research, studies have attempted to investigate conceptions of learning, approaches to learning, and self-efficacy, mainly focusing on science in general or on specific subjects such as biology, physics, and chemistry. However, few empirical studies have probed students’ earth science learning. This study aimed to explore the relationships among undergraduates’ conceptions of, approaches to, and self-efficacy for learning earth science by adopting the structural equation modeling technique. A total of 268 Taiwanese undergraduates (144 females) participated in this study. Three instruments were modified to assess the students’ conceptions of, approaches to, and self-efficacy for learning earth science. The results indicated that students’ conceptions of learning made a significant contribution to their approaches to learning, which were consequently correlated with their learning self-efficacy. More specifically, students with stronger agreement that learning earth science involves applying the knowledge and skills learned to unknown problems were prone to possess higher confidence in learning earth science. Moreover, students viewing earth science learning as understanding earth science knowledge were more likely to adopt meaningful strategies to learn earth science, and hence expressed a higher sense of self-efficacy. Based on the results, practical implications and suggestions for future research are discussed.     

In Pursuit of Validity: A comprehensive review of science attitude instruments 1935–2005

The purpose of this review is to present a comprehensive evaluation of science attitude instruments based on published psychometric evidence. A multitude of instruments have been used through the years and some have been linked to career choice and school performance. Substantiating such associations is of paramount importance if researchers wish to influence educational policy. However, associations are reduced, or hard to discover, if instruments have weak psychometric properties. Several databases were searched for peer‐reviewed articles that discussed the development and use of science attitude instruments. Instruments were grouped into the following categories: attitudes toward science, scientific attitudes, nature of science, scientific career interests, and other. A data abstraction and scoring rubric was used to summarize and evaluate 150 published articles that spanned 66 instruments. Most instruments had single study usage and showed an absence of psychometric evidence. This review demonstrated that there are few instruments available with the necessary psychometric data to merit recommendation. The review quantifies the current state of the research regarding the measurement of science attitude in students; the results should elicit further discussion and encourage more rigorous analyses of instruments. The findings may assist other researchers to select an instrument and alert them to its strengths and weaknesses. This review points the way forward for research in this field. Instruments already in existence should be used in repeat studies, and reliability and validity evidence should be collected and shared.     

Extending the Scaffolding Metaphor

A brief overview overview is provided of how the scaffolding metaphor has been defined in educational contexts. This includes a discussion of what theories guide decision-making regarding what to scaffold as well as considerations as to whom or what does the scaffolding (human teachers, peers and tutors or computer tutors or support tools designed for learning environments). The scaffolding construct intersects instruction and assessment in that instructors assess learners to determine what type or level of scaffold is sufficient to help learners reach their potential. Such assessments are dynamic and ongoing and can occur through dialogue and social interactions with or without the use of technology. Hence scaffolds are provided when and where necessary but they are also removed when evidence of learning exists. This article describes how the contributors to this issue have extended the scaffolding metaphor to open-ended technology based environments. Empirical studies are reviewed with regard to how they extend the scaffolding metaphor in terms of the theories that guide the design of scaffolds, the metrics designed to assess how scaffolding affects learning and in terms of teaching scaffolding techniques to others.     

Interest, motivation and learning: An educational-psychological perspective

Within the last few years, researchers have shown a renewed interest in “interest”. Especially in the field of educational psychology many studies have been conducted to analyze how learning and achievement are influenced by motivational and cognitive factors, which are connected with individual and/or situational interests. In this paper, results from empirical research will be presented besides theoretical considerations concerning the interest-construct. Interest has typically been studied as an independent variable. Dependent variables have been either some aspects of learning outcome (knowledge structure, academic achievement) or hypothetical mediators, which probably can be used to explain the interest effects (e.g., learning strategies, attention, emotional experiences). There is also a growing number of studies which try to explore the conditions of interest development within educational settings. Future lines of research will be discussed in light of the demands of educational theory and practice.     

Effect of Entrepreneurial Behaviour on Researchers' Knowledge Production: Evidence from Canadian Universities

The article studies the differences in knowledge production between academic researchers. In this perspective, it attempts at first to answer the following question: what factors explain differences in knowledge production between Canadian researchers in natural sciences and engineering? After a presentation of some of the empirical evidence related to this first question, a distinction between two types of academic institutions, entrepreneurial versus non‐entrepreneurial universities, is introduced. Drawing from this distinction, four empirical models are suggested to test differences in knowledge production between entrepreneurial and non‐entrepreneurial researchers. The results show, first, that funding, time devoted to teaching activities, research team and individual attributes have a similar but differentiated impact on knowledge production of entrepreneurial and non‐entrepreneurial researchers. Second, there are some unbalanced effects of the variables co‐operation, time devoted to research activities, academic fields and university size on the knowledge production of Canadian researchers on natural science and engineering.     

Learning science content through socio-scientific issues-based instruction: a multi-level assessment study

Science educators have presented numerous conceptual and theoretical arguments in favor of teaching science through the exploration of socio-scientific issues (SSI). However, the empirical knowledge base regarding the extent to which SSI-based instruction supports student learning of science content is limited both in terms of the number of studies that have been conducted in this area and the quality of research. This research sought to answer two questions: (1) To what extent does SSI-based instruction support student learning of science content? and (2) How do assessments at variable distances from the curriculum reveal patterns of learning associated with SSI-based instruction? Sixty-nine secondary students taught by three teachers participated in the study. Three teachers implemented an SSI intervention focused on the use of biotechnology for identifying and treating sexually transmitted diseases. We found that students demonstrated statistically and practically significant gains in content knowledge as measured by both proximal and distal assessments. These findings support the claim that SSI-based teaching can foster content learning and improved performance on high-stakes tests.     

Reasoning as a scientist: ways of helping children to use language to learn science

Sociocultural researchers have claimed that students' learning of science is a discursive process, with scientific concepts and ways of reasoning being learned through engagement in practical enquiry and social interaction as well as individualized activity. It is also often claimed that interacting with partners while carrying out scientific investigations is beneficial to students' learning and the development of their understanding. The research we describe investigated the validity of these claims and explored their educational implications. An experimental teaching programme was designed to enable children in British primary schools to talk and reason together and to apply these skills in their study of science. The results obtained indicate that (a) children can be enabled to use talk more effectively as a tool for reasoning and (b) talk‐based activities can have a useful function in scaffolding the development of reasoning and scientific understanding. The implications of the findings for educational policy and practice are discussed.     

Designing a Web-Based Science Learning Environment for Model-Based Collaborative Inquiry

The paper traces a research process in the design and development of a science learning environment called WiMVT (web-based inquirer with modeling and visualization technology). The WiMVT system is designed to help secondary school students build a sophisticated understanding of scientific conceptions, and the science inquiry process, as well as develop critical learning skills through model-based collaborative inquiry approach. It is intended to support collaborative inquiry, real-time social interaction, progressive modeling, and to provide multiple sources of scaffolding for students. We first discuss the theoretical underpinnings for synthesizing the WiMVT design framework, introduce the components and features of the system, and describe the proposed work flow of WiMVT instruction. We also elucidate our research approach that supports the development of the system. Finally, the findings of a pilot study are briefly presented to demonstrate of the potential for learning efficacy of the WiMVT implementation in science learning. Implications are drawn on how to improve the existing system, refine teaching strategies and provide feedback to researchers, designers and teachers. This pilot study informs designers like us on how to narrow the gap between the learning environment’s intended design and its actual usage in the classroom.     

Studying science teacher identity: current insights and future research directions

Over the past 10?years an increasing number of articles have been published in leading science education journals that report on research about teacher identity and describe interventions that support teacher identity development. My purpose in this review paper is to examine how the construct of science teacher identity has been conceptualised and studied in science education. In doing so, I synthesise the findings of 29 empirical studies on teacher identity within the field of science education in an attempt to respond to the following questions: (a) In what ways have researchers used the construct of teacher identity to examine science teacher learning and development? (b) What approaches to supporting science teacher identity development have been documented in the literature? Following that, I identify gaps and limitations in the existing literature and I offer recommendations for future research in the area of science teacher identity and identity development: (a) studying teacher identity as a process; (b) connecting science teacher identity research and reform recommendations; (c) conducting large-scale, longitudinal and life-history studies; and (d) examining teacher identity enactment in school classrooms.     

Informal learning in science museum: development and evaluation of a mobile exhibit label system with iBeacon technology

Informal science learning has drawn the attention of researchers, educators and museum administrators for a long time. However, the problem of how to better support visitors to be more engaged while visiting exhibits and improve informal science learning performance is still missing. Context-aware technologies have the advantages of fostering learning interest and providing real time feedback. Previous studies have examined the effectiveness of 5E Learning Cycle in science learning. To address the problem, this study aims to develop a mobile label assisted system using the 5E Learning Cycle approach based on iBeacon technology in a science museum. A total of 43 college students participated in this study. Participants from different majors were assigned to two groups in an effort to make the groups relatively equivalent in terms of student majors. One group was the experimental group (mobile label assisted visiting mode, n = 21), and the other one was the control group (traditional visiting mode, n = 22). From the results of learning performance, stay-time, behavioral pattern analysis, and interviews, it was found that the mobile label assisted system can effectively guide visitors to interact with exhibits, conduct thoughtful learning, and prolong the visiting stay-time. Visitors are willing to visit the science museum with it. This was one of the very few studies focusing on the application of iBeacon to design mobile label system in a science museum. It turned out that iBeacon technology has huge potential applications for the future science museum.     

Trends in the research design and application of mobile language learning: a review of 2007–2016 publications in selected SSCI journals

This study reviewed the mobile technology-assisted language learning studies published from 2007 to 2016 in selected journals. Several critical issues were investigated, such as research methods, research issues, language and learner types, and learning outcomes. It was found that English as a foreign/second language was the most common target language; few studies have been conducted on native language learning. Early studies mainly focused on fostering learners’ individual language skills, while in the recent 5 years, researchers started to consider the issue of delivering multiple language skills in authentic learning environments. In addition, an increasing number of studies have involved mixed methods and longer treatment periods. Moreover, the effectiveness of mobile learning in terms of speaking, writing, vocabulary, and pronunciation was generally identified by most of the studies. On the other hand, more evidence is needed to further confirm its impacts on listening, reading, grammar, and integrated/whole language learning. Finally, some suggestions are provided to researchers or practitioners to facilitate their future work.     

THEORY,METHOD AND PRACTICE OF NEUROSCIENTIFIC FINDINGS IN SCIENCE EDUCATION

This report provides an overview of neuroscience research that is applicable for science educators. It first offers a brief analysis of empirical studies in educational neuroscience literature, followed by six science concept learning constructs based on the whole brain theory: gaining an understanding of brain function; pattern recognition and consciousness; mind maps, mnemonics and other learning devices; concrete multisensory experience; higher-order creative reasoning via a multimedia-infused environment and positive emotion in educational settings. It is vital to the future of results-based education that discoveries regarding the cognitive learning process are taken into consideration when designing instruction. This research offers science educators neuroscience-backed information as a foundation to develop results-oriented curricula and teaching methods. Future research could further extend an empirically driven education system.     

Introduction to Special Issue: Null Effects and Publication Bias in Learning Disabilities Research

The importance of publishing studies with null findings to the scientific enterprise is garnering attention in social science at large and education in particular. In this article, we first define null findings and publication bias as they relate to group and single‐subject instructional intervention research. We then explore the prevalence of instructional intervention studies that report null findings in the learning disabilities literature. Overall, we found that few studies have been published in learning disability journals that reported all null results. However, a significant number of group studies reported mixed findings (i.e., at least one, but not all, outcome measures were not statistically significant). Next, we summarize the experimental studies that comprise this special issue on null findings. Last, we speculate regarding strategies that might be enacted to increase the publication of studies with null findings in the learning disabilities field.     

Teachers’ professional development in Nanoscience and nanotechnology in the context of a Community of Learners

ABSTRACT

This case study focuses on teachers’ professional development in NanoScience and nanoTechnology (NST). In the context of a Community of Learners (CoL), in-service teachers in collaboration with science education researchers, nanoscience researchers and experts from science museums, developed a teaching module. This module integrates NST topics along with aspects of science communication, i.e. development of science exhibits and socio-scientific issues, e.g. ethics regarding the research in this field. The data were gathered over 1-year period by using video recordings and interviews. The Interconnected Model of Professional Growth was used to study the processes that support teachers’ professional change in this context, as they are elicited from their interactions in the CoL. Our findings indicate that the dynamic of teachers’ interactions with colleagues and the mediating processes that impact on their professional learning, are crafted on the basis of the emerged challenges in each phase of module’s design and development. These findings give an insight on teachers’ professional learning as they transfer their professional knowledge regarding scientific topics which are innovative to them, i.e. NST, into their teaching practice. In this respect, this study contributes to research literature relevant to teachers’ professionalisation in order to implement innovations in the classroom.     

Cooperative Learning with Gifted and High-achieving Students: A review and meta-analyses of 12 studies

Should gifted and high-achieving students cooperate in homogeneous groups or do they learn better individually? Or should they learn together with less gifted peers in heterogeneous groups? Current empirical research is reviewed in this article and meta-analyses of available results in 12 published studies are performed. Results show that few methodologically sound studies can be found at present. In addition, researchers only considered a restricted spectrum of participants, focused on learning of relatively simple materials, measured only a restricted range of possible outcomes, and neglected processes and activities of the learners, which might determine outcomes of cooperative learning. Results therefore remain controversial even for fundamental issues like learning in homogeneous versus heterogeneous, mixed-ability groups. In spite of these limitations, analyses nevertheless show that cooperative learning offers strong potentials for further improving the quality of instruction with gifted and high-achieving students. Further empirical research is required to obtain more differentiated information on the various aspects of cooperative learning.     

Scaffolding Science Teachers in Open‐inquiry Teaching

The present study deals with a school‐based professional development trajectory for secondary science teachers, aiming at scaffolding teachers in open‐inquiry teaching for the topic of water quality. Its design was based on the leading principle of ‘guiding by scaffolding’. Seven experienced teachers participated in institutional meetings and teaching at school. The research focused on designing scaffolding tools, addressing these tools in the meetings, and implementing them in the classroom. The main research data were obtained from meetings, classroom discussions, and observations. The results indicated that the professional development trajectory has promoted teachers’ learning of scaffolding students in open inquiry, especially the ability to know when and how to give students a well‐balanced combination of ‘structure’ for open‐inquiry learning and sufficient ‘space’ for that. The implications for science teacher education are discussed.